Gallic Acid Enhancement of Gold Nanoparticle Anticancer Activity in Cervical Cancer Cells |
Daduang, Jureerut
(Centre for Research and Development of Medical Diagnostic Laboratories, Faculty of Associated Medical Sciences, Khon Kaen University)
Palasap, Adisak (Centre for Research and Development of Medical Diagnostic Laboratories, Faculty of Associated Medical Sciences, Khon Kaen University) Daduang, Sakda (Department of Biochemistry, Faculty of Science, Khon Kaen University) Boonsiri, Patcharee (Department of Biochemistry, Faculty of Medicine, Khon Kaen University) Suwannalert, Prasit (Department of Pathobiology, Faculty of Science, Mahidol University) Limpaiboon, Temduang (Centre for Research and Development of Medical Diagnostic Laboratories, Faculty of Associated Medical Sciences, Khon Kaen University) |
1 | Paciotti GF, Kingston DG I and Tamarkin L (2006). Colloidal gold nanoparticles: a novel nanoparticle platform for developing multifunctional tumor-targeted drug delivery vectors. Drug Development Research, 67, 47-54. DOI |
2 | Palasap A, Limpaiboon T, Boonsiri P, et al (2014). The cytotoxic effect of phytophenolics form Caesalpinia mimosoides Lamk on cervical carcinoma cell lines through apoptotic pathway. Asian Pac J Cancer Prev, 15, 449-454. DOI ScienceOn |
3 | Patel SS, Goyal RK (2011). Cardioprotective effects of gallic acid in diabetes-induced myocardial dysfunction in rats. Pharmacognosy Res, 3, 239-245. DOI |
4 | Rokayya S, Li CJ, Zhao Y, Li Y, Sun CH (2013). Cabbage (Brassica oleracea L. var. capitata) phytochemicals with antioxidant and anti-inflammatory potential. Asian Pac J Cancer Prev, 14, 6657-62. 과학기술학회마을 DOI |
5 | Rose PG (2002). Chemoradiotherapy for cervical cancer. Eur J Cancer, 38, 270-278. DOI |
6 | Sanchez-Paradinas S, Perez-Andres M, Almendral-Parra MJ, et al (2014). Enhanced cytotoxic activity of bile acid cisplatin derivatives by conjugation with gold nanoparticles. J Inorg Biochem, 131, 8-11. DOI |
7 | Schug ZT, Gonzalvez F, Houtkooper RH, Vaz FM, Gottlieb E (2011). BID is cleaved by caspase-8 within a native complex on the mitochondrial membrane. Cell Death Differ, 18, 538-48. DOI |
8 | Szachowicz-Petelska B, Dobrzynska I, Figaszewski Z, Sulkowski S (2002). Changes in physico-chemical properties of human large intestine tumour cells membrane. Mol Cell Biochem, 238, 41-47. DOI |
9 | Tsai SW, Chen YY and Liaw JW (2008). Compound cellular imaging of laser scanning confocal microscopy by using gold nanoparticles and dyes. Sensors, 8, 2306-2316. DOI |
10 | Turkevich J, Stevenson PC, Hillier J (1951). A study of the nucleation and growth processes in the synthesis of colloidal gold. Discuss Faraday Soc, 11, 55-75. DOI |
11 | Ulasli SS, Celik S, Gunay E, et al (2013). Anticancer effects of thymoquinone, caffeic acid phenethyl ester and resveratrol on A549 non-small cell lung cancer cells exposed to benzo(a) pyrene. Asian Pac J Cancer Prev, 14, 6159-64. 과학기술학회마을 DOI ScienceOn |
12 | Waggoner SE (2003). Cervical cancer. The Lancet, 361, 2217-25. DOI |
13 | You BR, Moon HJ, Han YH, Park WH (2010). Gallic acid inhibits the growth of HeLa cervical cancer cells via apoptosis and/or necrosis. Food Chem Toxicol, 48, 1334-1340. DOI |
14 | You BR, Park WH (2010). Gallic acid-induced lung cancer cell death is related to glutathione depletion as well as reactive oxygen species increase. Toxicol In Vitro, 24, 1356-62. DOI |
15 | Zhou J, Luo YH, Wang JR, et al (2013). Gambogenic acid induction of apoptosis in a breast cancer cell line. Asian Pac J Cancer Prev, 14, 7601-5. 과학기술학회마을 DOI ScienceOn |
16 | Zhou W, Shao J, Jin Q, et al (2010). Zwitterionic phosphorylcholine as a better ligand for gold nanorods cell uptake and selective photothermal ablation of cancer cells. Chem Commun (Camb), 46, 1479-81. DOI |
17 | Dilshad A, Abulkhair O, Nemenqani D, Tamimi W (2012). Antiproliferative properties of methanolic extract of Nigella sativa against the MDA-MB-231 cancer cell line. Asian Pac J Cancer Prev, 13, 5839-42. 과학기술학회마을 DOI ScienceOn |
18 | Afifi MM, El Sheikh SM, Abdelsalam MM, et al (2013). Therapeutic efficacy of plasmonic photothermal nanoparticles in hamster buccal pouch carcinoma. Oral Surg Oral Med Oral Pathol Oral Radiol, 115, 743-51. DOI |
19 | Chithrani DB (2010). Intracellular uptake, transport, and processing of gold nanostructures. Mol Membr Biol, 27, 299-311. DOI |
20 | Cho EC, Xie J, Wurm PA, et al (2009). Understanding the role of surface charges in cellular adsorption versus internalization by selectively removing gold nanoparticles on the cell surface with a I2/KI etchant. Nano Lett, 9, 1080-4. DOI ScienceOn |
21 | Dobrzynska I, Skrzydlewska E and Figaszewski Z A (2013). Changes in electric properties of human breast cancer cells. J Membr Biol, 246, 161-6. DOI |
22 | Dobrzynska I, Szachowicz-Petelska B, Sulkowski S, Figaszewski Z (2005). Changes in electric charge and phospholipids composition in human colorectal cancer cells. Mol Cell Biochem, 276, 113-9. DOI |
23 | Eshghi H, Sazgarnia A, Rahimizadeh M, et al (2013). Protoporphyrin IX-gold nanoparticle conjugates as an efficient photosensitizer in cervical cancer therapy. Photodiagnosis Photodyn Ther, 10, 304-312. DOI |
24 | Hayashi K, Nakamura M, Sakamoto W, et al (2013). Superparamagnetic nanoparticle clusters for cancer theranostics combining magnetic resonance imaging and hyperthermia treatment. Theranostics, 3, 366-376. DOI |
25 | Kim MS, Bak Y, Park YS, et al (2013). Wogonin induces apoptosis by suppressing E6 and E7 expressions and activating intrinsic signaling pathways in HPV-16 cervical cancer cells. Cell Biol Toxicol, 29, 259-272. DOI |
26 | Kroes BH, van den Berg AJ, Quarles van Ufford HC, van Dijk H, Labadie RP (1992). Anti-inflammatory activity of gallic acid. Planta Med, 58, 499-504. DOI |
27 | Lentacker I, Geers B, Demeester J, De Smedt SC, Sanders NN (2010). Tumor cell killing efficiency of doxorubicin loaded microbubbles after ultrasound exposure. J Control Release, 148, 113-4. DOI |
28 | Lu S, Xia D, Huang G, et al (2010a). Concentration effect of gold nanoparticles on proliferation of keratinocytes. Colloids Surf B Biointerfaces, 81, 406-411. DOI ScienceOn |
29 | Liao CL, Lai KC, Huang AC, et al (2012). Gallic acid inhibits migration and invasion in human osteosarcoma U-2 OS cells through suppressing the matrix metalloproteinase-2/-9, protein kinase B (PKB) and PKC signaling pathways. Food Chem Toxicol, 50, 1734-40. DOI |
30 | Liu X, Huang N, Li H, et al (2014). Multidentate polyethylene glycol modified gold nanorods for in vivo near-infrared photothermal cancer therapy. ACS App Mater, 6, 5657-68. DOI |
31 | Lu Y, Jiang F, Jiang H, et al (2010b). Gallic acid suppresses cell viability, proliferation, invasion and angiogenesis in human glioma cells. Eur J Pharmacol, 641, 102-107. DOI |
32 | Manju S, Sreenivasan K (2012). Gold nanoparticles generated and stabilized by water soluble curcumin-polymer conjugate: blood compatibility evaluation and targeted drug delivery onto cancer cells. J Colloid Interface Sci, 368, 144-151. DOI |
33 | Modi M, Goel T, Das T, et al (2013). Ellagic acid & gallic acid from Lagerstroemia speciosa L. inhibit HIV-1 infection through inhibition of HIV-1 protease & reverse transcriptase activity. Indian J Med Res, 137, 540-8. |
34 | Monsonego J, Bosch FX, Coursaget P, et al (2004). Cervical cancer control, priorities and new directions. Int J Cancer, 108, 329-33. DOI |
35 | Murphy CJ, Gole AM, Stone JW, et al (2008). Gold nanoparticles in biology: beyond toxicity to cellular imaging. Acc Chem Res, 41, 1721-30. DOI ScienceOn |
36 | Ohno T, Inoue M and Ogihara Y (2001). Cytotoxic activity of gallic acid against liver metastasis of mastocytoma cells P-815. Anticancer Res, 21, 3875-80. |